Installation for producing reinforced concrete parts

ABSTRACT

Installation to produce reinforced concrete parts, including a first conveyor ( 1 ) on which the model of the parts to be produced is carried out, a second conveyor ( 2 ) for the part drying and an outlet ( 3 ) to withdraw the formed parts, being formed the first conveyor ( 1 ) of a metal sheet band, on which a marking pencil ( 12 ) carries out the drawing to determine the forms of the parts, forming the cases of the mentioned forms respect to some continuous side bands ( 11 ) which are situated on the metal belt ( 1 ) in combined movement with it.

The present invention refers to an installation to carry out prefabricated reinforced concrete parts such as panels, posts, beams, etc . . . destined to their use as assembly blocks in the construction.

In the building works prefabricated parts such as bricks, plates, beam lengths, etc . . . are used with which the construction to be carried out is structured in each case, by means of the assembly and union of the corresponding prefabricated parts.

When speaking about reinforced concrete parts, the realization of the same is carried out in a conventional way on fabrication tables which determine hollows or cages according to the shape of the parts to the carried out, placing the concrete and the necessary reinforced structure in the mentioned cages, to strip the form of the part after the hardening of the concrete and take it out with a crane or similar means.

This production process is completely manual, which supposes a lot of hand work and slowness in the production, moreover with the inconvenience that at the bottom of the concrete forms to carry out the parts, normally residues of concrete remain, making a cleaning necessary, which is difficult and also delays the process in prejudice of the production.

There are continuous production solutions, in which the concrete forms for the concrete parts are incorporated on a conveyor belt, passing through successive stations such as form filling, compacting of the concrete and drying of the parts, till a final evacuation of the same.

In some solutions, as those of Patents SU 1222557 and FR 2565155, among others, independently built concrete forms are used, which are placed on the conveyor belt, which requires the previous construction of the forms and their transport till the installation of application.

In the Spanish Patents 383.489, already expired, a solution is indicated in which the forms are carried out on the conveyor belt itself, including some adjustable limiting devices which determine the side closure of the forms. In this solution, the conveyor belt is made up of paths in the way of a chain, which allows little effective control to avoid the side variations of the belt which makes up the base of the forms, while the side limiting devices are independent, requiring a very complex individual regulation.

The problem is solved in an advantageous way with the preconized installation, which allows an almost completely automatic production process, developing the mentioned process in a continuous successive way, so that the parts that are produced are carried out consecutively without interruption.

This installation, object of the invention, is made up of three conveyors, situated consecutively one after the other, being in relation with the first transport means some concrete discharging means, while in a longitudinal path this transport passes under some belts, adjustable in their width, which made up the side contention of the deposited concrete, determining the mentioned bands the shaping forms of the parts in combination with transverse separating devices which are situated on the conveyor itself, according to the length of the parts to be produced.

The mentioned first conveyor is made up of a conveyor belt with steel sheet, determining a flat supporting surface for the shaping concrete of the parts to be produced, being in relation with that surface a stripping grease impregnating device and an anti-setting lacquer impregnating device, which are activated in a selective way in function of the finish surface required in the produced parts.

On the initial part of that metal conveyor belt a marking pencil is situated which is activated automatically by a control programme, by means of which the location of the successive parts to be built are marked on the metal conveyor belt, for the installation of the necessary separating devices respect to the mentioned location.

Respect to the lower part of the metal conveyor belt, cleaning means are included, which carry out the cleaning of the surface of the mentioned belt in a continuous way, eliminating completely the residues remaining on it after the production of the parts.

The mentioned conveyor belt makes up a transport on which the parts to be produced are built, which remain on the mentioned transport during the setting of the constructive concrete and in the first drying phase, while during the second transport the drying of the produced parts is completed, determining the third conveyor a support of the parts, this support can be tilted sideways till near a vertical position to withdraw the parts by means of a crane.

In the drying paths of the parts, means are included which are selectively connectable by means of a programme to give the parts certain aspects, such as polishing or colouring, being situated a water pressure projector between the drying part and the outlet of the parts, this projector can also be selectively operated by a programme to clean the lower face of the parts.

The whole of the installations is situated covered by an arch, which determines an area in which it is possible to determine an environment with programmed temperature and humidity to favour the hardening and drying of the concrete of the parts that are being produced.

According to a realization, at the outer part of the form building side bands some supporting stops of the mentioned bands are situated, these stops made up at each of the sides a set which is maintained fixed to the metal band in the formed forming path of the concrete parts, establishing a stop which impedes the relative movement of the corresponding side band to the outside.

The mentioned supporting stops of the side bands are made up of a succession of magnets joined with springs in the shape of a chain, the mentioned magnets made up some respective plates in fixed fastening on them, passing the succession of chains of the magnets in support on the metallic band along the upper path of the latter, to return along the lower part, independent from the same.

This way the supporting stops of the side bands remain solidarity to the metallic band in the path of the formed shaping of the concrete parts, thanks to the fastening which the magnets establish on the mentioned metallic band, with which the movement of the mentioned stops is synchronized with the metal band and with the side bands, and at the same time the position of the mentioned stops is maintained fixed respect to the metal band in the formed shaping path of the concrete parts, establishing, by means of the plates which are fixed on the magnets, a stop which impedes the relative outward movement of the bands on the metal belt.

On the other hand, the side bands are situated in continuous loop above the metal belt along the path of the formed shaping of the concrete parts, with return on the lower part in support on some corresponding conveyor belts or rollers, passing the mentioned belts in the upper path in vertical sideways position to establish the closure of the forms that build the concrete parts, while in the lower return path they are situated in horizontal position which favours the support on the conveyor belts or rollers and the corresponding haulage.

According to a feature of the invention, at the initial part of the forming area a discharge head is situated and an adaptor head of the concrete in the part shaping forms, incorporated the mentioned heads in a transverse movement assembly respect to the forming transport, respect to the respective cleaning cabins of the same, situated at a side.

This way a disposition is obtained in which the mentioned discharge heads and adaptation of the concrete in the forms can be of a smaller width than the forming conveyor, covering the width of the latter by means of the transverse movement, which determines that the surface of the mentioned heads to be cleaned is smaller.

Thanks to that smaller surface of the heads to be cleaned, a dry cleaner by means of a scraper is situated related to them, which allows to carry out the installation job without having to move the heads to the corresponding cleaning cabins until after a certain time, with which a considerable water saving is reached, reducing the amount of polluted water resulting from the cleaning.

The metallic band is supported in the form transporting path on a supporting conveyor chain which duly allows to support the weight of the parts being shaped in the forms, returning the band and the supporting chain independently by the lower part, supported on respective supporting roller sets, while the bands that determine the sides of the forms return in turn independently.

In that independent returning disposition of the movable elements, the metal band remains free of retentions and charges, establishing in relation with it a driving guiding which corrects the side deviations that the same can have.

The second installation conveyor, as well as the outlet areas to unload the parts, are foreseen, according to a particular realization, by means of a succession of supporting rollers for the transport of the concreted parts, with which it builds a resistant support which allows to support with a very simple assembly disposition the weight of the parts of application.

In the mentioned realization, over the part outlet area for their unloading, a frame is situated whose structure remains intercalated respect to the part supporting rollers, independent from the mentioned rollers, being the mentioned frame in tilting articulated assembly on a side, with activating means for the mentioned tilting; with which the tilting of the parts happens till the withdrawing position by lifting means, this is carried out by means of the accessory frame, while the movement rollers of the parts in that area remain fixed, resulting the installation assembly this way much simpler, as the tilting means and the part movement means are independent.

Between the second conveyor of the installation and the outlet area to unload the parts, the incorporation of a thermoretractile plastic laminar band is foreseen, transversely respect to the part movement route, so that when the parts pass towards the outlet area they remain wrapped up by the thermoretractile plastic sheet, which favours the conditions for the total setting of the part concreting in little time during the storage.

According to a particularity in the installation, a water recirculating system is moreover foreseen which is used in the cleaning of the concreted parts, as well as the water is used for the cleaning of the concreting elements, delivering this residual water to the concrete elaboration process to build the mentioned parts, with which the water consumption of the installation is reduced and at the same time the pouring of polluted water is eliminated.

This way a set is obtained which allows to carry out in very favourable conditions the successive uninterrupted production of parts, reaching an high degree of production yield and an efficient quality of the parts that are produced.

FIG. 1 shows a lifted side view of the preconized installation set, according to a schematic representation.

FIG. 2 is a top view of the schematic installation set.

FIG. 3 is an enlarged representation, according to the lifting of FIG. 1, of the first half of the installation.

FIG. 4 is an enlarged representation, according to the lifting of FIG. 1, of the second half of the installation.

FIG. 5 is an enlarged representation, according to the top view of FIG. 2, of the first half of the installation.

FIG. 6 is a schematic transverse section of the installation with the covering arch.

FIG. 7 is a detail in front view of the outlet conveyor of the produced parts, in the inclined position to collect the part that is situated on the mentioned conveyor.

FIG. 8 is an example in perspective of a part that can be carried out by means of the installation.

FIG. 9 shows a side view of the part corresponding to the formed shaping of the concrete parts in a realization by the installation with retention stops at the outside of the side shaping bands of the forms.

FIG. 10 is a transverse section view of the mentioned part of the installation represented on the previous figure.

FIGS. 11 and 12 are both details in amplified transverse section of the disposition with outer stops of the side closing bands of the forms on the base metal conveyor band.

FIG. 13 shows a top view of the formed shaping part of the parts in the preconized installation, with the discharge heads and adaptation of the concrete in transverse movement assembly.

FIG. 14 is a side view of an extreme end part of the form conveyor of the parts in the installation.

FIG. 15 is a top view of the drying conveyor of the parts and the outlet area for the unloading in a realization with rollers.

FIG. 16 is a side view of the passage of the parts from the drying conveyor to the outlet area with incorporation of the delivery of a thermoretractile plastic laminar band to wrap up the parts.

FIGS. 17 and 18 are both positions, in front view, of the outlet area for the unloading, with incorporation of a lifting frame of the parts, respectively in the transport position and in the collection position of the parts.

FIG. 19 is a top view of the mentioned unloading outlet area according to the previous realization.

FIG. 20 is a transverse section view of the part forming conveyor area, in a return realization of the form shaping side bands together with the section stops on the metal band.

The object of the invention refers to an installation to produce reinforced concrete parts by means of a continuous process and almost completely automatic.

The installation includes three consecutive conveyor (1, 2 and 3) making up a longitudinal set on which the parts (4) to be produced are transported, till their total finish.

The first conveyor (1) is a steel sheet band which extends along a long path, supported at the upper part on chains (5) which establish a continuous support accompanying the band (1) while at the lower part the band (1) and the chains (5) return supported on the respective supporting roller supports (6 and 33).

The mentioned band (1) passes initially through a concrete delivery area, where it is situated above a head (7) capable of placing on the band (1) amounts of concrete in function of the parts (4) to be produced, being situated in this area moreover another head (8) to flatten and compact the placed concrete.

Both heads (7 and 8) are movable to carry out the function of the concreting of the parts (4) to be produced, on the band (1) being it possible to withdraw them till the respective cabins (9) and (10) for the cleaning with water under pressure, for their cleaning after each operation.

According to a realization, according to FIG. 13, the mentioned heads (7 and 8) are situated in a transverse movement assembly respect to the forming conveyor, in moving disposition till both respective cleaning cabins (9 and 10) situated at a side.

With this disposition the mentioned heads (7 and 8) can have a smaller width than the forms built on the metal band (1), as for the realization of the concreting, the mentioned heads (7 and 8) cover the width of the forms by means of their transverse movement, which makes it possible to have some heads (7 and 8) with a very reduced operative surface.

This small dimension of the operative surface of the heads (7 and 8) makes that these can be cleaned easily, placing respect to them a dry cleaner with scraper, which allows the deep cleaning of the heads (7 and 8), by means of the cleaning, in the respective cabins (9 and 10), it should only be carried out every certain time, reaching this way a considerable water saving, at the same time as the production of polluted water residues is reduced considerably.

From the mentioned constructive concreting area of the parts (4) to be produced, the band (1) extends along a section beyond some bands (11) which accompany the band movement (1) in that path, being the mentioned bands (11) situated vertically sideways, to hold sideways the constructive concrete of the parts (4).

The mentioned side bands (11) are in synthetic material such as silicone or similar, structured on bearing chains, determining at the inner face a profiled configuration according to the shape of the sides of the part (4) to be produced. The mentioned bands (11) can be adjusted in the width of their separation on the band (1), which allows to adjust in turn the width of the parts (4).

According to a realization according to FIGS. 9 and 10, the side bands (11) determine an upper path which extends above the band (1), with return at the lower part in support on the respective supporting and hauling conveyor belts (26) which are activated by the corresponding engines (27).

In the return path on the lower part those bands (11) are lowered to a horizontal position in which they rest on the corresponding conveyor bands (26), favouring this way the movement hauling.

On the outer part of the side bands (11) some retention stops (28) are situated, by means of which the transverse position of the mentioned side bands (11) is assured on the band (1), to avoid the relative movements that can give rise to the deformation of the formed parts.

The mentioned stops (28) are made up by both series of magnets (29), which are consecutively joined by means of springs, determining a succession in chain, according to a closed set, with path at the upper part in support on the band (1) and independent return along the lower part in support on the corresponding driving chains (30), as in FIGS. 9 and 10 or together with the respective bands (11), in support on the supporting rollers (31), as in FIG. 20.

Over the magnets (29) some respective plates (32) are fixedly incorporated, as it is observed on FIGS. 11 and 12 by means of which a posterior retention support of the bands (11) is determined, impeding that these can move towards the outside on the band (1).

By means of the magnets (29) the stops (28) are fixed in the path of the upper part on the metal band (1), remaining this way synchronized with it in the movement, and in turn with the side bands (11), while the mentioned fastening establishes a sideways immobility which assures the retention of the bands (11) against the relative movement of the same on the band (1) towards the outside.

In this disposition the metal band (1) remains at its lower return part completely independent and free of loads, establishing respect to it, in that part, a guiding driver which corrects the side deviations of the same. The mentioned guiding driver is established by means of some rollers in support on the side edges of the band (1) and by means of an optic cursor, with laser or any other conventional means, following a straight line of reference, which determines an automatic correction of the transverse deviations, by means of pushing with the supporting rollers on the sides.

In front of the concreting area of the parts (4) to be produced a marking pencil (12) is situated, which draws the separation of the consecutive parts (4) to be formed on the band (1) by means of a programmed control, as well as the window, door, etc . . . openings which have to remain defined on the corresponding parts (4), so that the workers in charge of it can place, respect to the mentioned drawings, separators (34) in the way of partitions to withhold the constructive concrete according to the drawn shape of the parts (4), in the form partition which is determined to the respect between the mentioned separators (34) and the side bands (11).

Respect to the metal band (1) an impregnator (13) with anti-setting lacquer and an impregnator (14) of stripping grease, which are selectively activated by programming according to the finish foreseen of the parts (4) to be carried out.

On the other hand, respect to the return part of the band (1), surface cleaning means of the mentioned band (1) are situated, to eliminate completely the residues that can remain on it from the concreting of the parts (4) carried out at the upper part, including the mentioned means, for instance some scrapers (15), a brush (16) and a polishing roller (17), without this list being limitative, as in the same way any other cleaning element can be situated.

Above the conveyor, after the conclusion of the side bands (11), moreover means (18) are included capable of actuating on the surface of the parts (4) being built, to polish the constructive concrete of the same.

Between the conveyor belt (1) and the following conveyor (2), a roller support (19) is included which is free or with traction, determining a transition passage of the transport of the parts (4) between the conveyors (1 and 2).

Above the second conveyor (2) a painting head (20) is situated, which allows, by means of a selective activation by means of programming, to colour the forming parts (4) when it is required so.

The transition between the second conveyor (2) and the outlet conveyor (3) for the unloading of the parts (4), is by direct passage, situating under that transition a projector (21) of water under pressure, which in turn can be selectively activated through programming to clean the lower surface of the parts (4) when the finished finish of this requires so.

In the passage area from the drying conveyor (2) to the unloading outlet (3), moreover a delivery of thermoretractile plastic laminate band (35), is situated from an upper coil (36) and a lower coil (37), in the way represented on FIG. 16, remaining the laminate band (35) transverse respect to the movement path of the parts (4), when the mentioned parts (4) pass towards the unloading outlet (3) they remain wrapped up by the mentioned laminar band (35). With the mentioned wrapping some conditions which favour the total setting of the part (4) concreting are reached, in little time during the storage of the same.

The conveyor (3) makes up an outlet support of the parts (4), in disposition of an assembly in sideways tilting, with inclination possibility, until an almost vertical position (about 80°), in the way represented on FIG. 7, to collect the parts (4) by means of lifting with a crane, fastened at the side, avoiding transverse supporting efforts.

The conveyor (2) of the installation, destined to the drying of the concrete parts (4), as well as the outlet (3) conveyor for the unloading, can be shaped with conveyor belts of structured synthetic material on bearing chains, as in FIGS. 1, 2 and 4 but a peculiar realization shape is foreseen, in the way represented on FIG. 15, by means of a succession of rollers (38), determining a rotating transport, on which the parts (4) are supported in their movement towards the unloading area (3), therefore some of the rollers (38) are foreseen with driven activation, while the others are in free rotating assembly; being the driving rollers (38) the ones which carry out the hauling of the parts (4) for their movement while the others are only rotating supports.

The mentioned realization allows to place a frame (39) at the outlet (3) for the unloading, the structure of the mentioned frame remains interposed between the rollers (38) in support of the movement of the parts (4) without interfering with the mentioned rollers (38), as shown on FIG. 19, where only two rollers (38) have been represented, but it is perfectly observed that the transverse bars of the frame structure (39) remain interposed between the positions of the set of rollers (38) which will be situated in that part of the installation.

As it is observed on FIGS. 17 and 18, the frame (39) is situated in an articulated way respect to a rotary fastening (40) at one of the sides, having some activating cylinders (41) which allow to activate a tilting of the mentioned frame (39) between a horizontal position, as the one of FIG. 17 and an almost vertical position, as the one of FIG. 18.

In the horizontal position (FIG. 17) the frame (39) remains recessed respect to the upper plane of the rollers (38), so that the concrete parts (4) are supported on the mentioned rollers and can be moved on the same without any inconvenience to reach the unloading position.

When the parts (4) reach the unloading position, the cylinders (41) actuate, lifting in tilting operation the frame (39), which also lifts the part (4) with it which is in that area (FIG. 18), placing the part (4) this way in an almost vertical position, to withdraw the same by fixing it at a side with some lifting means such as a crane, reaching the mentioned positioning of the part (4) without the movement of the conveyor rollers (38) away from their position.

The operation control of the installation is established in an automatic way by a programmable information control, in the way that once introduced the corresponding programme at the control centre, when the installation is activated the band (1) is started, its movement is transmitted mechanically to the side bands (11).

At the same time the marking pencil (12) starts to actuate, executing the drawing of the successive parts (4) to be carried out, on the band surface (1).

In function of the finishing programme of the parts (4), the impregnating device (13) is activated or the impregnator (14), so that if the finishing of the parts (4) is foreseen with an uncovered concrete surface, the impregnator (14) with stripping grease starts to operate, so that the part (4) forming concrete (4) does not adhere to the band surface (1) and is easily freed.

When the finish of the parts (4) is foreseen with aggregate uncovered surface, on the contrary the impregnator (13) of the anti-setting lacquer, which deposits a layer of lacquer on the surface of the band (1), which makes that in touch with the constructive concrete of the parts (4), the mentioned concrete will not harden in a fine layer (of 1 or 2 millimetre, with which by means of a cleaning during the final stage the cementing material (cement) of the concrete can be eliminated so that the uncovered surface remains in the shape of aggregate.

Respect to the drawing carried out with the marking pencil (12), one or more workers place the separating devices (34) to individualize the parts (4) to be formed, as well as the necessary isolation separators for the window, door, etc . . . openings, foreseen in the parts (4), foreseen with such opening, so that between the mentioned separators and the side bands (11), they determine the forming cases to build the parts (4) to be carried out.

By means of the unloading head (7) afterwards an amount of concrete is placed in the mentioned part (4) forming case, after which the discharging head (7) is withdrawn, actuating then the head (8) which flattens and compacts the concrete in the corresponding casing, being the mentioned head (8) withdrawn afterwards.

The concrete layer (22) which is initially situated this way in the forming cases to build the parts (4), is only a partial thickness respect to the thickness of the parts (4) to be carried out, situating hereafter on the mentioned partial concrete layer (22) the reinforcing (23) structure to rigidify the parts (4), which is carried out by means of an accessory crane.

Once placed the reinforcing structure (23) the discharging head (7) intervenes again, which moves till the corresponding forming cage and places in it a calculated amount of concrete to fill the case completely.

Afterwards the discharging head (7) is withdrawn again, the head (8) then intervenes, and moves till the case of the part (4) being formed, flattening and compacting the placed concrete after which the mentioned head (8) is also withdrawn.

The case full of flattened and compacted concrete is carried by means of the conveyor belt (1) between the bands (11), for a time during which the concrete remains set, although not dry, so that at the end of the path on the band (1) the separating devices can be withdrawn, remaining the parts (4) independent.

During the transport on the band (1), the means (1) actuate, if it is programmed this way, to polish the concrete surface which is still fresh.

At the end of the band (1) the independent parts (4) pass on to the conveyor (2), on which a time is completed during which the drying of the constructive concrete of the parts (4) is finished till acquiring enough hardness to manipulate the same.

If in the programming it is foreseen, during that transport (2) the painting head (20) is activated, to colour the parts (4) being formed, as it is foreseen.

From the conveyor (2) the parts (4) go on to the outlet (3), so that if the finish of the parts (4) is programmed for an uncovered surface of aggregate, the activation of the water projector (21) occurs, cleaning the surface of the parts (4) during the mentioned passage of the same from the conveyor (2) on to the outlet (3).

The parts (4) are received at the outlet (3), which allows by means of the sideways tilting till an almost vertical position to extract the parts (4) by means of a crane in a disposition which avoids the transverse efforts on them.

The realizable parts (4) can be of any kind which allows a conformation of the formed concreting; representing FIG. 8 a non limitative example of a possible part (4) in the shape of a plate, with profiled side edges in counter-position and with holes (24) for the fixing of the fastening eyebolts for the handling hooking.

The set of the installation is foreseen with a covering by means of an arch (25), according to FIG. 6, determining a closed area in which it is susceptible of creating an environment of temperature and humidity, also by means of programming, to optimize the setting conditions and drying of the constructive concrete of the parts (4) in combination with the movement speed of the same along the installation.

In the installation, moreover, a recirculation of the residual cleaning water of the parts (4) is foreseen, as well as of the residual water of the head cleaning (7 and 8) in the cabins (9 and 10), to send the mentioned residual water to the concrete elaboration process, necessary to build the parts (4), with which the consumption of water in the installation is reduced, eliminating in turn the pouring out of polluted residual water, as the residual cleaning water is used to elaborate the concrete for the part (4) formation to be carried out. 

1-13. (canceled)
 14. installation to produce reinforced concrete parts, including a conveyor belt (1), on which the moulds for the parts (4) to be produced are carried out, with some heads (7 and 8) to discharge and adapt the constructive concrete into the moulds, while after said belt (1) a transport (2) is established for the drying of the parts (4) being formed, finishing at an outlet (3) for the withdrawal by means of lifting of the formed parts (4), characterized in that: the conveyor belt (1) is a metal sheet, on which a marking pencil (12) actuates drawing the parts (4) to be built, for the placing of isolation separators respect to the mentioned drawing, determining a moulding cavity for the building of the parts (4), respect to some continuous side bands (11) situated on the belt (1) and moving in corresponding motion with said belt (1).
 15. Installation to produce reinforced concrete parts according to claim 14, characterized in that: the belt (1), at its upper part, is supported by chains (5) which determine a continuous support accompanying the mentioned belt (1), while at the lower part the conveyor belt (1) returns completely independent, supported on a succession of supporting (6) and moving rollers(6).
 16. Installation to produce reinforced concrete parts according to claim 14, characterized in that with respect to the conveyor belt (1) an impregnator (13) for anti-setting lacquer is situated as well as an impregnator (14) for stripping grease, which are activated selectively according to the finish foreseen for the parts (4) to be carried out.
 17. Installation to produce reinforced concrete parts according to claim 14, characterized in that with respect to the lower returning part of the conveyor belt (1), cleaning means (15, 16, 17) are situated to eliminate the remains of the forming concrete of the parts (4) on said belt (1).
 18. Installation to produce reinforced concrete parts according to claim 14, characterized in that: the installation set is situated covered by an arch (25), determining an enclosed space, in which it is possible to create an atmosphere with programmed temperature and humidity to optimize the setting and drying conditions of the constructive concrete of the parts (4) during the path along the installation.
 19. Installation to produce reinforced concrete parts according to claim 14, characterized in that: some stops of the side bands (28) are situated on the conveyor belt (1), on the outside of the side bands (11), said stops (28) being made up by a series of magnets (29) joined in chain, forming a closed succession with an upper path in support on said conveyor belt (1) and independent return at the lower part, some respective plates (32), on which the side bands (11) are supported, being fixed on the magnets (29).
 20. Installation to produce reinforced concrete parts according to claim 14, characterized in that: the side bands (11) are vertically supported on the side on the conveyor belt (1) at the upper part, returning lowered in horizontal position at the lower part supported on some corresponding belts (26) or rollers (31).
 21. Installation to produce reinforced concrete parts according to claim 14, characterized in that: the heads (7 and 8) to provide and adapt the concrete in the moulds of the parts (4) are of a smaller width than the conveyor belt (1), being incorporated in a transverse movement respect to the conveyor belt (1) in movement disposition till both cleaning cabins (9 and 10) which are situated at a side.
 22. Installation to produce reinforced concrete parts according to claim 14, characterized in that it comprises, with respect to the lower returning part of the conveyor belt (1), a driving guiding which corrects the transverse deviations, by means of supports on the side edges of said conveyor belt (1) and an optic cursor which follows a straight line of reference.
 23. Installation to produce reinforced concrete parts according to claim 14, characterized in that said transport (2) and said outlet (3) to withdraw the parts (4) are determined by means of a succession of rollers (38) on which the parts (4) in motion are supported, some of said rollers (38) being provided with motorized activation to activate the motion.
 24. Installation to produce reinforced concrete parts according to claim 23, characterized in that: a frame (39) is situated at the outlet (3) to withdraw the parts (4), structure of said frame remaining interposed in respect of the rollers (38), independent from these, said frame (39) being in an articulated assembly (40) of sideways tilting, with activation means (41) to activate said tilting, allowing to lift the parts (4) till an almost vertical position, independent from the supporting rollers (38) during the transport.
 25. Installation to produce reinforced concrete parts according to claim 14, characterized in that between the transport (2) and the outlet (3) to withdraw the parts (4) a thermoretractile plastic laminate band delivery device (35) is incorporated, in transverse disposition with respect to the movement path of the parts (4) to wrap up the formed parts (4) when they pass towards the outlet (3).
 26. Installation to produce reinforced concrete parts according to claim 14, characterized in that with respect to the incorporated cleaning means of the installation, a recirculation system is incorporated for the residual water until the concrete elaboration process destined to forming the mentioned parts (4). 